KR200233043Y1 - water purifier system - Google Patents

Abstract

This paper is a technology for the purification of fresh water such as reservoirs, lakes, and dams.It generates compressed air in deep water to increase the dissolved oxygen in the water, while circulating water in the lower part to the upper part to perform the water purification function. It relates to a water purifier that makes possible.

In this paper, a flow pipe is installed in deep water from a structure floating on the surface of the water, and a pumping tank equipped with several pumps is installed at the upper part of the flow pipe, while compressed air is generated at the lower part of the flow pipe. The tank and the storage tank are installed, and a width mechanism and an acid board are installed in the flow path.

This paper releases the compressed air generated in the compressed air generating tank and the storage tank into the aeration mechanism to increase the dissolved oxygen in the water through the acid substrate, and pumps the water in the upper part of the flow path from the pumping tank to draw up the water in the lower part to the upper part. By circulating, the arithmetic process and the circulation process go on.

Description

Water purifier

This paper is a technology for the purification of fresh water such as reservoirs, lakes, and dams.It generates compressed air in deep water to increase the dissolved oxygen in the water, while circulating water in the lower part to the upper part to perform the water purification function. It relates to a water purifier that makes possible.

Water accumulated in reservoirs, lakes, and dams is generating water layers with different water temperature at the surface and bottom layers. These water phenomena have high surface temperatures in summer and low temperatures in winter, and conversely in winter. Is low and the temperature of the bottom layer is high.

Such a water layer phenomenon causes a lack of dissolved oxygen in the water present in the bottom layer, thereby facilitating the dissolution of the phosphorus component deposited on the floor, thereby degrading the quality of the fresh water.

If the phosphorus or nitrogen is eluted in the water, the nutrient source of algae breeding is abundant, so eutrophication proceeds. It must be done.

In order to improve the water quality of the fresh water, I filed the application method and device for generating compressed air in water as patent application No. 10-2000-0078122 and Utility Model Registration Application No. 20-2000-0035637.

The method and apparatus for generating underwater compressed air, which the applicant has elected, is to install a compressed air generating tank and a storage tank in deep water from a structure floating on the surface, and install a width pipe or a water circulator in the compressed air storage tank. In the compressed air generating tank, the outside air in the air is inhaled to generate air, and the compressed air is stored at the hydraulic pressure in the storage tank to release the compressed air to the aeration pipe or the water circulator, thereby purifying the fresh water. have.

This proposal was devised to improve the method and apparatus for generating underwater compressed air, which was previously filed by the author, and generates compressed air in deep water to increase the amount of dissolved oxygen in the water through the aeration mechanism and the acid substrate. The purpose of the present invention is to provide a water purifying apparatus for pumping water in an upper layer to circulate water in a lower layer to an upper layer to perform a purification function of fresh water.

In this paper, a flow pipe is installed in deep water from a structure floating on the surface of the water, and a pumping tank equipped with several pumps is installed at the upper part of the flow pipe, while compressed air is generated at the lower part of the flow pipe. The tank and the storage tank are installed, and a width mechanism and an acid board are installed in the flow path.

This paper releases the compressed air generated in the compressed air generating tank and the storage tank into the aeration mechanism to increase the dissolved oxygen in the water through the acid substrate, and pumps the water in the upper part of the flow path from the pumping tank to draw up the water in the lower part to the upper part. By circulating, the arithmetic process and the circulation process go on.

1 is an installation state showing an embodiment of the present invention

2 and 3 is a cross-sectional view showing the operating state of the present proposal

4 and 5 are cross-sectional views showing the compressed air generating tank of the present invention

6 is a plan sectional view showing an acid substrate of the present invention.

(Explanation of symbols on the main parts of drawing

1: Structure 2: Dependent 3: Control Box

4: support 6: wiring pipe 7: air inflow pipe

10: Euro pipe 11: Inlet pipe 20: Pumping tank

21: pump 30: compressed air generation tank 31: air suction chamber

32: submersible pump 34: water level sensor 40: storage tank

41: discharge pipe 50: width mechanism 60: acid board

61: acid pores

This paper proposes a conventional method for generating compressed air by installing compressed air generating tanks and storage tanks in deep water and purifying the fresh water by releasing the generated compressed air into a width pipe or a water circulator. In the apparatus,

In the structure (1) floating on the water surface by the support (4) flow channel 10 is installed in the deep water, and several pumps 21 are mounted and installed on the upper side of the flow channel (10) A pumping tank 20, a compressed air generating tank 30 connected to the air inlet pipe 7 and the wiring pipe 6 in the structure 1 and installed at a lower side of the flow path pipe 10; The storage tank 40 is installed in the lower portion of the compressed air generating tank 30, the inlet hole 42 is drilled in the bottom surface, and the air discharge pipe 41 is mounted, and the water depth in the lower portion of the flow pipe 10 Several inflow pipes 11 installed in the deep water, a pipe connected to the storage tank 40 to be provided in the lower portion of the flow path pipe 10, and the air diffuser 61 are densely packed. The perforated acid substrate 60 is characterized in that is configured to be installed in the flow path tube (10).

The structure (1) that floats on the water surface is provided with a number of buoyant (2) is attached to the bottom and a control box (3) is installed on one side to control all operations, deep water in such a structure (1) Several supporters 4 are installed.

Several supporters 5 are mounted on upper and lower portions of several supports 4 which are located deep in the water, and the flow pipes 10 are vertically fixed on the supports 5 to provide deep water depth. The flow path tube 10 is installed in the water.

The flow pipe 10 may have a suitable diameter according to the purification capacity of the water and can be manufactured in different lengths according to the depth of water. The flow pipe 10 may be manufactured by assembling into a certain length, and the pumping tank 20 is installed at the upper part and the lower part. Compressed air generating tank 30 and the storage tank 40 is installed.

The upper end of the flow path tube 10 is submerged under the structure (1) and submerged in the water surface, the pumping tank 20 installed in the upper portion of the flow path tube 10 wraps around the outside of the flow path tube (10) The upper end is installed higher than the water surface and the cover 23 is formed with the exhaust hole 24 perforated thereon.

Inside the pumping tank 20, several pumps 21 are installed to pump the water inside, and the discharge pipes of the pump 21 are installed to face the surface layer of fresh water, and the valve 22 is mounted. The pump 21 preferably uses an underwater pump.

Therefore, when the pump 21 operates to pump the water contained in the pumping tank 20, as the water level of the pumping tank 20 decreases, the water of the upper layer contained in the flow pipe 10 flows in and is continuously pumped. The bottom water in the tube 10 is drawn up.

Compressed air generating tank 30 is installed in the lower portion of the flow pipe (10) is connected to the air inlet pipe (7) through the flow pipe 10 on the structure (1), and also the flow pipe in the control box (3) The wiring pipe 6 is connected and installed through 10, and several air suction chambers 31 are provided to be sealed therein, and each air suction chamber 31 has an underwater pump 32 and a water level sensor 34. Is installed.

Predetermined water is built into the several air suction chambers 31, and the discharge hoses 33 of the submersible pumps 32 are connected to different air suction chambers 31 and pumped by the submersible pumps 32. Allow water to be pumped into different air intake chambers 31.

The amount of water contained in the air suction chamber 31 is injected not more than half of the combined volume of the air suction chamber 31, and the detection signal of the water level sensor 34 is transmitted to the control box through the wiring pipe 6. It is delivered to (3) to control the operation of the submersible pump 32 according to the water level, the air inlet pipe 7 through which the outside air is introduced is connected to the air suction chamber 31, respectively.

The storage tank 40 for compressing and storing the air generated by the compressed air generating tank 30 is installed in the lower portion of the compressed air generating tank 30 and the inlet hole 42 into which water is introduced is formed at the bottom of the compressed air generating tank 30. The compressed air generating tank 30 and the discharge pipe 41 are connected and installed to allow the generated air to flow therein.

Since the storage tank 40 is placed in deep water during the installation process, water is filled and filled through the inlet 42 of the bottom part, and in this state, the air generated in the discharge pipe 41 is introduced.

When air is continuously introduced into the storage tank 40, the water filled in the storage tank 40 is pushed out into the inlet hole 42, and the compressed air is compressed because it receives a strong water pressure higher than atmospheric pressure.

Meanwhile, another embodiment of the storage tank 40 is to seal the bottom of the storage tank 40 to compress and store the air introduced through the discharge pipe 41, and the air inlet pipe located in the air suction chamber 31. (7) and the discharge pipe 41 are each equipped with check valves (a) and (b) to open and close in one direction.

The width mechanism 50 for releasing the compressed and stored air from the storage tank 40 is connected to the bottom surface of the storage tank 40, the flow pipe (20) is located above the compressed air generating tank (30) Install in the lower part of 10).

The aeration mechanism 50 can use a conventionally known public aerospace hole in which a hole is densely drilled in a radially conduit, and may discharge compressed air in the flow path tube 10.

Compressed air discharged into the aerator 50 is released as air bubbles in the underwater state, and the acid substrate 60 for dispersing the air bubbles more densely to increase the amount of dissolved oxygen in the water is the upper side of the aerator 50. Mounted in the lower portion of the flow path tube 10 so as to lie in, the small sized air pores 61 on a plate smaller than the diameter of the flow path tube 10 is densely drilled.

The bubble particles discharged from the aerator 50 are more densely dispersed while passing through the small size of the pores 61 to increase the amount of dissolved oxygen by providing oxygen in the water. It can install in lamination within (10).

On the other hand, the inlet pipe 11 installed in the deeper water in the lower portion of the flow pipe 10 is for circulating the water of the deep bottom portion into the flow pipe 10 so as to circulate. Several inflow pipes 11 having a small diameter are installed on the outer side of the flow path pipe 10 in which the width mechanism 50 is installed so that the water in the bottom portion flows through the inflow pipe 11.

The inlet pipe 11 may be manufactured in different lengths according to the water depth, and in the case of a lake or a reservoir in which the water depth is not deep, the inflow pipe 11 is introduced by drilling the inlet hole in the installation place of the inlet pipe 11 without installing the inlet pipe 11. The water in the bottom portion at the position of the ball can be introduced into the flow path tube 10 to circulate.

In this proposal of this configuration, the water circulation process and the acidic process of increasing the amount of dissolved oxygen are performed at the same time, so that the water flows into the flow path 10 and the pumping tank 20 during the installation process and is installed to have the same water level as the water surface. First, let's look at the water cycle.

When the pump 21 operates in the pumping tank 20 to pump the water contained in the control box 3, the water in the upper layer of the flow path pipe 10 is pumped while the water level of the pumping tank 20 is lowered. Pumping proceeds continuously by flowing into the tank 20, wherein the amount of water flowing into the pumping tank 20 from the flow pipe 10 is introduced into the flow pipe 10 through the inflow pipe 11. Will be replenished.

When the water level in the flow path tube 10 is lower than the water level in the state in which the flow path tube 10 is isolated from the outside, water pressure is applied to the water in the bottom layer through the inflow pipe 11 into the flow path tube 10 and The same level is achieved.

Therefore, the water in the lower part of the lower part of the pumping process is circulated to the upper part, and the lower part of the water discharged to the surface part through the pump 21 and the discharge pipe has a lower temperature than the surface part, thereby reducing the green algae occurring at the surface part.

Next, we will look at the process of increasing the amount of dissolved oxygen in water.

The water pump 32 operates under the control of the control box 3 in a state in which predetermined water is built into one of the air suction chambers 31 of the compressed air generating tank 30 so that the water contained in the air suction chamber 31 is controlled. When pumped to the other air suction chamber 31, the air suction chamber 31 in which the water is reduced by the pumping process is lowered the internal pressure, the outside air is sucked through the air inlet pipe (7), the water is filled with air The suction chamber 31 is compressed in the built-in air as the volume of the internal space is reduced and flows into the storage tank 40 through the discharge pipe 41.

When the water contained in the air suction chamber 31 is reduced to the bottom surface by the pumping process, the water level sensor 34 detects this and delivers it to the control box 3 to stop the operation of the water pump 32 and again. The submersible pump 32 of the filled air suction chamber 31 is operated to inhale external air and generate compressed air, and this operation process is repeatedly performed to inhale external air to the storage tank 40. Inflow.

The air collected by the storage tank 40 is compressed under strong water pressure in the deep water, and when the appropriate amount is filled, the air is discharged to the aerator 50 through a connecting pipe, and the air bubble particles discharged from the aerator 50 are acid. It is more densely dispersed while passing through the acid pores 61 of the substrate 60 to provide oxygen in the water, thereby increasing the amount of dissolved oxygen.

This proposal provides oxygen to the water in the bottom portion introduced into the flow path tube 10 through a circulation process to increase the dissolved oxygen amount, and the water of the bottom portion is pumped to the upper portion to increase the purification of fresh water.

This paper circulates fresh water by pumping water from the bottom layer to reduce the green algae occurring at the surface layer, and improve the water quality by increasing the dissolved oxygen in the water through the acid process.

Claims (2)

In the existing underwater air generation method and apparatus for installing compressed air generation tank and storage tank in deep water to generate compressed air, and discharge the generated compressed air to the width pipe or water circulator to purify the fresh water. , In the structure (1) floating on the water surface by the support (4) flow channel 10 is installed in the deep water, and several pumps 21 are mounted and installed on the upper side of the flow channel (10) A pumping tank 20, a compressed air generating tank 30 connected to the air inlet pipe 7 and the wiring pipe 6 in the structure 1 and installed at a lower side of the flow path pipe 10; The storage tank 40 is installed in the lower portion of the compressed air generating tank 30, the inlet hole 42 is drilled in the bottom surface, and the air discharge pipe 41 is mounted, and the water depth in the lower portion of the flow pipe 10 Several inflow pipes 11 installed in the deep water, a pipe connected to the storage tank 40 to be provided in the lower portion of the flow path pipe 10, and the air diffuser 61 are densely packed. The water purification device, characterized in that the perforated acid substrate 60 is installed in the flow path tube (10). In claim 1, Compressed air generating tank 30 is provided with a plurality of air suction chamber 31 is sealed therein, each of the submersible pump 32 and the water level sensor 34 is installed, the discharge hose 33 of the submersible pump 32 Water purification device, characterized in that is configured to be connected to each other air suction chamber (31).